Bottom parameter extraction from long range reverberation measurements

MTS/IEEE Oceans 2001. An Ocean Odyssey. Conference Proceedings (IEEE Cat. No.01CH37295) Pub Date : 2001-11-05 DOI:10.1109/OCEANS.2001.968208

J. Preston

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引用次数: 9

Abstract

From 1996 through 2000 the author participated with the SACLANT Undersea Research Centre in four Rapid Environmental Assessment (REA) trials, including experiments for bottom reverberation. SUS charges were used as sources. The receivers were horizontal arrays (four apertures) spanning a wide frequency range. Sets of nearly monostatic recordings were analyzed in frequency bands from 80 to 4000 Hz. Previous results by the author, [Berlin ASA meeting, 1999] showed polar plots of the beam time series superimposed on bathymetric charts, revealing a number of scattering features not on the charts and that directional reverberation measurements are a useful remote-sensing tool. A manual procedure was used in the first 3 sea trials to obtain bottom parameter estimates that could reproduce the reverberation decay for at-sea results. Recently this inversion scheme has been automated using a constrained simulated annealing (SA) algorithm giving more formal inversion results. In May of 2000 a Scientific REA experiment was conducted with SACLANTCEN, ARL/PSU, DREA and NRL near the Malta Plateau. Reverberation data from 100 Hz-4000 Hz was obtained using SUS. The horizontal array data are compared with the Generic Sonar Model (GSM) predictions for both the manual and automated inverse schemes. Results show a definite improvement using the automated technique.

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从长程混响测量中提取底部参数

从1996年到2000年，作者参加了SACLANT海底研究中心的四次快速环境评估(REA)试验，包括海底混响试验。SUS收费被用作来源。接收器是水平阵列(四个孔)，跨越宽频率范围。在80到4000赫兹的频带中分析了几组几乎单稳态的录音。作者以前的研究结果[Berlin ASA meeting, 1999]显示了波束时间序列叠加在测深图上的极坐标图，揭示了海图上没有的一些散射特征，并且定向混响测量是一种有用的遥感工具。在前3次海上试验中使用了手动程序来获得海底参数估计，这些参数可以再现海上结果的混响衰减。最近，这种反演方案已经使用约束模拟退火(SA)算法实现了自动化，给出了更正式的反演结果。2000年5月，在马耳他高原附近与SACLANTCEN、ARL/PSU、DREA和NRL进行了科学REA实验。使用SUS获得了100 Hz-4000 Hz混响数据。将水平阵数据与通用声纳模型(GSM)预测的人工和自动反演方案进行了比较。结果表明使用自动化技术有明显的改善。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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MTS/IEEE Oceans 2001. An Ocean Odyssey. Conference Proceedings (IEEE Cat. No.01CH37295)

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